A novel heterozygous ZBTB18 missense mutation in a family with non-syndromic intellectual disability

Intellectual disability (ID) is a common neurodevelopmental disorder characterized by significantly impaired adaptive behavior and cognitive capacity. High throughput sequencing approaches have revealed the genetic etiologies for 25–50% of ID patients, while inherited genetic mutations were detected...

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Veröffentlicht in:	Neurogenetics 2023-10, Vol.24 (4), p.251-262
Hauptverfasser:	Li, Nana, Kang, Hong, Zou, Yanna, Liu, Zhen, Deng, Ying, Wang, Meixian, Li, Lu, Qin, Hong, Qiu, Xiaoqiong, Wang, Yanping, Zhu, Jun, Agostino, Mark, Heng, Julian I-T, Yu, Ping
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Sprache:	eng
Schlagworte:	Asymptomatic Cognitive ability Families & family life Genomes Human Genetics Intellectual disabilities Medicine Medicine & Public Health Missense mutation Molecular Medicine Mutation Neurodevelopmental disorders Neurology Neurosciences Next-generation sequencing Original Article Whole genome sequencing Zinc finger proteins
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container_title	Neurogenetics
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creator	Li, Nana Kang, Hong Zou, Yanna Liu, Zhen Deng, Ying Wang, Meixian Li, Lu Qin, Hong Qiu, Xiaoqiong Wang, Yanping Zhu, Jun Agostino, Mark Heng, Julian I-T Yu, Ping
description	Intellectual disability (ID) is a common neurodevelopmental disorder characterized by significantly impaired adaptive behavior and cognitive capacity. High throughput sequencing approaches have revealed the genetic etiologies for 25–50% of ID patients, while inherited genetic mutations were detected in < 5% cases. Here, we investigated the genetic cause for non-syndromic ID in a Han Chinese family. Whole genome sequencing was performed on identical twin sisters diagnosed with ID, their respective children, and their asymptomatic parents. Data was filtered for rare variants, and in silico prediction tools were used to establish pathogenic alleles. Candidate mutations were validated by Sanger sequencing. In silico modeling was used to evaluate the mutation’s effects on the protein encoded by a candidate coding gene. A novel heterozygous variant in the ZBTB18 gene c.1323C>G (p.His441Gln) was identified. This variant co-segregated with affected individuals in an autosomal dominant pattern and was not detected in asymptomatic family members. Molecular studies reveal that a p.His441Gln substitution disrupts zinc binding within the second zinc finger and disrupts the capacity for ZBTB18 to bind DNA. This is the first report of an inherited ZBTB18 mutation for ID. This study further validates WGS for the accurate molecular diagnosis of ID.
doi_str_mv	10.1007/s10048-023-00727-7
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High throughput sequencing approaches have revealed the genetic etiologies for 25–50% of ID patients, while inherited genetic mutations were detected in < 5% cases. Here, we investigated the genetic cause for non-syndromic ID in a Han Chinese family. Whole genome sequencing was performed on identical twin sisters diagnosed with ID, their respective children, and their asymptomatic parents. Data was filtered for rare variants, and in silico prediction tools were used to establish pathogenic alleles. Candidate mutations were validated by Sanger sequencing. In silico modeling was used to evaluate the mutation’s effects on the protein encoded by a candidate coding gene. A novel heterozygous variant in the ZBTB18 gene c.1323C>G (p.His441Gln) was identified. This variant co-segregated with affected individuals in an autosomal dominant pattern and was not detected in asymptomatic family members. Molecular studies reveal that a p.His441Gln substitution disrupts zinc binding within the second zinc finger and disrupts the capacity for ZBTB18 to bind DNA. This is the first report of an inherited ZBTB18 mutation for ID. 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High throughput sequencing approaches have revealed the genetic etiologies for 25–50% of ID patients, while inherited genetic mutations were detected in < 5% cases. Here, we investigated the genetic cause for non-syndromic ID in a Han Chinese family. Whole genome sequencing was performed on identical twin sisters diagnosed with ID, their respective children, and their asymptomatic parents. Data was filtered for rare variants, and in silico prediction tools were used to establish pathogenic alleles. Candidate mutations were validated by Sanger sequencing. In silico modeling was used to evaluate the mutation’s effects on the protein encoded by a candidate coding gene. A novel heterozygous variant in the ZBTB18 gene c.1323C>G (p.His441Gln) was identified. This variant co-segregated with affected individuals in an autosomal dominant pattern and was not detected in asymptomatic family members. Molecular studies reveal that a p.His441Gln substitution disrupts zinc binding within the second zinc finger and disrupts the capacity for ZBTB18 to bind DNA. This is the first report of an inherited ZBTB18 mutation for ID. 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mutation in a family with non-syndromic intellectual disability</atitle><jtitle>Neurogenetics</jtitle><stitle>Neurogenetics</stitle><addtitle>Neurogenetics</addtitle><date>2023-10-01</date><risdate>2023</risdate><volume>24</volume><issue>4</issue><spage>251</spage><epage>262</epage><pages>251-262</pages><issn>1364-6753</issn><issn>1364-6745</issn><eissn>1364-6753</eissn><abstract>Intellectual disability (ID) is a common neurodevelopmental disorder characterized by significantly impaired adaptive behavior and cognitive capacity. High throughput sequencing approaches have revealed the genetic etiologies for 25–50% of ID patients, while inherited genetic mutations were detected in < 5% cases. Here, we investigated the genetic cause for non-syndromic ID in a Han Chinese family. Whole genome sequencing was performed on identical twin sisters diagnosed with ID, their respective children, and their asymptomatic parents. Data was filtered for rare variants, and in silico prediction tools were used to establish pathogenic alleles. Candidate mutations were validated by Sanger sequencing. In silico modeling was used to evaluate the mutation’s effects on the protein encoded by a candidate coding gene. A novel heterozygous variant in the ZBTB18 gene c.1323C>G (p.His441Gln) was identified. This variant co-segregated with affected individuals in an autosomal dominant pattern and was not detected in asymptomatic family members. Molecular studies reveal that a p.His441Gln substitution disrupts zinc binding within the second zinc finger and disrupts the capacity for ZBTB18 to bind DNA. This is the first report of an inherited ZBTB18 mutation for ID. This study further validates WGS for the accurate molecular diagnosis of ID.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>37525067</pmid><doi>10.1007/s10048-023-00727-7</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0001-9239-9044</orcidid></addata></record>
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subjects	Asymptomatic Cognitive ability Families & family life Genomes Human Genetics Intellectual disabilities Medicine Medicine & Public Health Missense mutation Molecular Medicine Mutation Neurodevelopmental disorders Neurology Neurosciences Next-generation sequencing Original Article Whole genome sequencing Zinc finger proteins
title	A novel heterozygous ZBTB18 missense mutation in a family with non-syndromic intellectual disability
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